内吞作用
溶酶体
胞饮病
胞吐
癌细胞
细胞生物学
赫拉
化学
罗特勒林
自噬
纳米医学
细胞内
生物物理学
内体
纳米技术
细胞
癌症
纳米颗粒
生物
材料科学
分泌物
生物化学
信号转导
细胞凋亡
蛋白激酶C
酶
遗传学
作者
Li Ding,Xianbing Zhu,Yiling Wang,Bingyang Shi,Xiang Ling,Houjie Chen,Wenhao Nan,Austin John Barrett,Zilei Guo,Wei Tao,Jun Wu,Xiaojun Shi
出处
期刊:Nano Letters
[American Chemical Society]
日期:2017-10-24
卷期号:17 (11): 6790-6801
被引量:161
标识
DOI:10.1021/acs.nanolett.7b03021
摘要
Polydopamine (PDA) coating as a bioinspired strategy for nanoparticles (NPs) has been extensively applied in cancer theranostics. However, a cellular-level understanding of nano-biointeraction of these PDA-coated NPs (PDNPs), which drives the fate of them and acts as a critical step to determine their efficacy, still remains unknown. Herein, we utilized the representative mesoporous silica NPs (MSNs) to be coated with PDA and study their nano-bioactivities in cancer cells. HeLa cell line was utilized as a model in this study. The PDNPs were discovered to be internalized through three specific pathways, that is, Caveolae-, Arf6-dependent endocytosis, and Rab34-mediated macropinocytosis (55%, 20% and 37% of uptake inhibition by nystatin, Arf6 knockdown, and rottlerin, respectively). Autophagy-mediated accumulation of PDNPs in lysosomes was observed and the formed PDA shells shedded in the lysosomes. Almost 40% of the NPs were transported out of cells via Rab8/10- and Rab3/26-mediated exocytosis pathways at our tested level. On the basis of these results, a novel combined cancer treatment strategy was further proposed using drug-loaded MSNs-PDA by (i) utilizing naturally intracellular mechanism-controlled PDA shedding for organelle-targeted release of drugs in lysosomes to generate lysosome impairment and (ii) blocking the demonstrated exocytosis pathways for enhanced therapeutic efficacy.
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